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2024/12/22 2:45:54 来源:https://blog.csdn.net/duan18291953965/article/details/143843837  浏览:    关键词:代理网页在线_手机免费制图软件_seo站长优化工具_成都网络推广哪家好
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Flink之DataStream数据源、数据转换、数据输出(scala)

0.前言–数据源

在进行数据转换之前,需要进行数据读取。
数据读取分为4大部分:

(1)内置数据源;

又分为文件数据源;在这里插入图片描述
socket数据源;
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集合数据源三类
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(2)Kafka数据源

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第二个参数用到的SimpleStringSchema对象是一个内置的DeserializationSchema对象,可以把字节数据反序列化程一个String对象。
另外,FlinkKafkaConsumer开始读取Kafka消息时,可以配置他的 读 起始位置,有如下四种。
在这里插入图片描述

import java.util.Properties
import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.connectors.kafka.FlinkKafkaConsumer
import org.apache.flink.api.common.serialization.SimpleStringSchema
import org.apache.flink.streaming.api.windowing.time.Time
object KafkaWordCount {def main(args: Array[String]): Unit = {val kafkaProps = new Properties()//Kafka的一些属性kafkaProps.setProperty("bootstrap.servers", "localhost:9092")//所在的消费组kafkaProps.setProperty("group.id", "group1")//获取当前的执行环境val evn = StreamExecutionEnvironment.getExecutionEnvironment
//创建Kafka的消费者,wordsendertest是要消费的Topicval kafkaSource = new FlinkKafkaConsumer[String]("wordsendertest",new SimpleStringSchema,kafkaProps)//设置从最新的offset开始消费kafkaSource.setStartFromLatest()//自动提交offset
kafkaSource.setCommitOffsetsOnCheckpoints(true)//绑定数据源val stream = evn.addSource(kafkaSource)//设置转换操作逻辑val text = stream.flatMap{ _.toLowerCase().split("\\W+")filter{ _.nonEmpty} }.map{(_,1)}.keyBy(0).timeWindow(Time.seconds(5)).sum(1)//打印输出text.print()//程序触发执行evn.execute("Kafka Word Count")}
}

(3)HDFS数据源

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(4)自定义数据源

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一个例子:

import java.util.Calendar
import org.apache.flink.streaming.api.functions.source.RichSourceFunction
import org.apache.flink.streaming.api.functions.source.SourceFunction.SourceContext
import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment
import scala.util.Randomcase class StockPrice(stockId:String,timeStamp:Long,price:Double)
object StockPriceStreaming {def main(args: Array[String]) { //设置执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//设置程序并行度    
env.setParallelism(1)    
//股票价格数据流val stockPriceStream: DataStream[StockPrice] = env//该数据流由StockPriceSource类随机生成.addSource(new StockPriceSource)//打印结果stockPriceStream.print()//程序触发执行env.execute("stock price streaming")}class StockPriceSource extends RichSourceFunction[StockPrice]{ var isRunning: Boolean = trueval rand = new Random()//初始化股票价格var priceList: List[Double] = List(10.0d, 20.0d, 30.0d, 40.0d, 50.0d)var stockId = 0var curPrice = 0.0d
override def run(srcCtx: SourceContext[StockPrice]): Unit = {while (isRunning) {//每次从列表中随机选择一只股票stockId = rand.nextInt(priceList.size)val curPrice =  priceList(stockId) + rand.nextGaussian() * 0.05priceList = priceList.updated(stockId, curPrice)val curTime = Calendar.getInstance.getTimeInMillis//将数据源收集写入SourceContextsrcCtx.collect(StockPrice("stock_" + stockId.toString, curTime, curPrice))Thread.sleep(rand.nextInt(10))}
} override def cancel(): Unit = {isRunning = false}}
}

1.数据转换之map操作

1.数据转换算子的四种类型
基于单条记录:fliter、map
基于窗口:window
合并多条数据流:union,join,connect
拆分多条数据流:split

2.map(func)操作将一个DataStream中的每个元素传递到函数func中,并将结果返回为一个新的DataStream。输出的数据流DataStream[OUT]类型可能和输入的数据流DataStream[IN]不同
理解:一 一对应的关系,一个x得到一个y

val dataStream = env.fromElements(1,2,3,4,5)
val mapStream = dataStream.map(x=>x+10)

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3.演示代码

import org.apache.flink.api.common.functions.RichMapFunction
import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironmentcase class StockPrice(stockId:String,timeStamp:Long,price:Double) 
object MapFunctionTest {def main(args: Array[String]): Unit = {//设定执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//设定程序并行度env.setParallelism(1)//创建数据源val dataStream: DataStream[Int] = env.fromElements(1, 2, 3, 4, 5, 6, 7)//设置转换操作逻辑val richFunctionDataStream = dataStream.map {new MyMapFunction()}//打印输出richFunctionDataStream.print()//程序触发执行env.execute("MapFunctionTest")}//自定义函数,继承RichMapFunctionclass MyMapFunction extends RichMapFunction[Int, String] {override def map(input: Int): String =("Input : " + input.toString + ", Output : " + (input * 3).toString)}
}

2.数据转换之flatMap操作

1.flatMap和map相似,每个输入元素都可以映射到0或多个输出结果。

val dataStream = env.fromElements("Hadoop is good","Flink is fast","Flink is better")
val flatMapStream = dataStream.flatMap(line => line.split(" "))

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可以理解为flatMap比map多了flat操作。如图。map是将输入数据映射成数组,flat是将数据拍扁,成为一个个元素。把元素映射成了多个。

2.代码演示

import org.apache.flink.api.common.functions.FlatMapFunction
import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment
import org.apache.flink.util.Collectorcase class StockPrice(stockId:String,timeStamp:Long,price:Double) 
object FlatMapFunctionTest {def main(args: Array[String]): Unit = {//设定执行环境
val env = StreamExecutionEnvironment.getExecutionEnvironment//设定程序并行度
env.setParallelism(1)
//设置数据源
val dataStream: DataStream[String] = env.fromElements("Hello Spark", "Flink is excellent“) //针对数据集的转换操作逻辑
val result = dataStream.flatMap(new WordSplitFlatMap(15)) //打印输出
result.print() 
//程序触发执行env.execute("FlatMapFunctionTest")} //使用FlatMapFunction实现过滤逻辑,只对字符串长度大于threshold的内容进行切词class WordSplitFlatMap(threshold: Int) extends FlatMapFunction[String, String] {override def flatMap(value: String, out: Collector[String]): Unit = {if (value.size > threshold) {value.split(" ").foreach(out.collect)}}}
}

预计输出:

Flink
is
excellent

这里只对字符长度超过15的做切割。threshold是阈值,少于15的不做切割。

3.数据转换之filter和keyBy操作

1.filter(func)操作会筛选出满足函数func的元素,并返回一个新的数据集
2.代码举例

val dataStream = env.fromElements("Hadoop is good","Flink is fast","Flink is better")
val filterStream = dataStream.filter(line => line.contains("Flink"))

如图所示
在这里插入图片描述

3.keyBy(注意方法里k小写B大写):将相同Key的数据放置在相同的分区中。
keyBy算子根据元素的形状对数据进行分组,相同形状的元素被分到了一起,可被后续算子统一处理

比如在词频统计时:

				hello flink hello hadoophello zhangsan

这里 词频(hello,1),(hello,1),(hello,1)统计出来之后,通过keyBy,就可以聚合,放在了相同的分区里进行统一计算。

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通过聚合函数后又可以吧KeyedStream转换成DataStream。

4.在使用keyBy算子时,需要向keyBy算子传递一个参数, 可使用数字位置来指定Key
比如刚才词频统计时,keyBy(0)就是hello这个单词。

val dataStream: DataStream[(Int, Double)] =env.fromElements((1, 2.0), (2, 1.7), (1, 4.9), (3, 8.5), (3, 11.2))
//使用数字位置定义Key 按照第一个字段进行分组
val keyedStream = dataStream.keyBy(0)

这里keyby 是第一个字段1或者2或者3分组(分类)。

5.keyBy代码举例:

import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment//声明一个样例类,包含三个字段:股票ID、交易时间、交易价格
case class StockPrice(stockId:String,timeStamp:Long,price:Double)object KeyByTest{def main(args: Array[String]): Unit = {//获取执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//设置程序并行度env.setParallelism(1)
//创建数据源val stockList = List(StockPrice("stock_4",1602031562148L,43.4D),StockPrice("stock_1",1602031562148L,22.9D),StockPrice("stock_0",1602031562153L,8.2D),StockPrice("stock_3",1602031562153L,42.1D),StockPrice("stock_2",1602031562153L,29.2D),StockPrice("stock_0",1602031562159L,8.1D),StockPrice("stock_4",1602031562159L,43.7D),StockPrice("stock_4",1602031562169L,43.5D))val dataStream = env.fromCollection(stockList) //设定转换操作逻辑val keyedStream = dataStream.keyBy("stockId“) //打印输出keyedStream.print() //程序触发执行env.execute("KeyByTest")}
}

在这里插入图片描述
这里看起来没什么变换 ,因为没进行聚合操作,所以什么变化都没有,原样输出。
我加上聚合函数,看起来就有变化了。

//简写上面的代码 加上聚合函数val keyedStream = dataStream.keyBy("stockId")val aggre = keyedStream.sum(2) //这里相加的是价格price(第三个字段)// keyedStream.print()aggre.print()//聚合后打印

结果
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对比上面哪里变化了呢?
stcok_id顺序,4-1-0-3-2-0(这里之前也有0,就会加上之前的0,变为16.299,后面的4也在累加前面的price了

4.数据转换之reduce操作和聚合操作

1.reduce:reduce算子将输入的KeyedStream通过传入的用户自定义函数滚动地进行数据聚合处理,处理以后得到一个新的DataStream,如下实例

import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment//声明一个样例类,包含三个字段:股票ID、交易时间、交易价格
case class StockPrice(stockId:String,timeStamp:Long,price:Double)object ReduceTest{def main(args: Array[String]): Unit = {//获取执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//设置程序并行度env.setParallelism(1)//创建数据源val stockList = List(StockPrice("stock_4",1602031562148L,43.4D),StockPrice("stock_1",1602031562148L,22.9D),StockPrice("stock_0",1602031562153L,8.2D),StockPrice("stock_3",1602031562153L,42.1D),StockPrice("stock_2",1602031562153L,29.2D),StockPrice("stock_0",1602031562159L,8.1D),StockPrice("stock_4",1602031562159L,43.7D),StockPrice("stock_4",1602031562169L,43.5D))val dataStream = env.fromCollection(stockList)//设定转换操作逻辑val keyedStream = dataStream.keyBy("stockId")val reduceStream = keyedStream.reduce((t1,t2)=>StockPrice(t1.stockId,t1.timeStamp,t1.price+t2.price))//打印输出reduceStream.print()//程序触发执行env.execute("ReduceTest")}
}

reduce结果和上面的一样,就是累加
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2.flink也支持自定义的reduce函数

import org.apache.flink.api.common.functions.ReduceFunction
import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment//声明一个样例类,包含三个字段:股票ID,交易时间,交易价格
case class StockPrice(stockId:String,timeStamp:Long,price:Double)object MyReduceFunctionTest{def main(args: Array[String]): Unit = {//获取执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//设置程序并行度env.setParallelism(1)//创建数据源val stockList = List(StockPrice("stock_4",1602031562148L,43.4D),StockPrice("stock_1",1602031562148L,22.9D),StockPrice("stock_0",1602031562153L,8.2D),StockPrice("stock_3",1602031562153L,42.1D),StockPrice("stock_2",1602031562153L,29.2D),StockPrice("stock_0",1602031562159L,8.1D),StockPrice("stock_4",1602031562159L,43.7D),StockPrice("stock_4",1602031562169L,43.5D))val dataStream = env.fromCollection(stockList) //设定转换操作逻辑val keyedStream = dataStream.keyBy("stockId")val reduceStream = keyedStream.reduce(new MyReduceFunction)//打印输出reduceStream.print()//程序触发执行env.execute("MyReduceFunctionTest")}class MyReduceFunction extends ReduceFunction[StockPrice] {override def reduce(t1: StockPrice,t2:StockPrice):StockPrice = {StockPrice(t1.stockId,t1.timeStamp,t1.price+t2.price)}}
}

主要不同的就是创建了MyReduceFunction ().
3.聚合算子
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和excel一样。
代码举例:

import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment//声明一个样例类,包含三个字段:股票ID、交易时间、交易价格
case class StockPrice(stockId:String,timeStamp:Long,price:Double) 
object AggregationTest{def main(args: Array[String]): Unit = {//获取执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//设置程序并行度env.setParallelism(1)    
//创建数据源val stockList = List(StockPrice("stock_4",1602031562148L,43.4D),StockPrice("stock_1",1602031562148L,22.9D),StockPrice("stock_0",1602031562153L,8.2D),StockPrice("stock_3",1602031562153L,42.1D),StockPrice("stock_2",1602031562153L,29.2D),StockPrice("stock_0",1602031562159L,8.1D),StockPrice("stock_4",1602031562159L,43.7D),StockPrice("stock_4",1602031562169L,43.5D))val dataStream = env.fromCollection(stockList)//设定转换操作逻辑val keyedStream = dataStream.keyBy("stockId")val aggregationStream = keyedStream.sum(2)  //区别在这里   sum聚合 2表示第三个字段//打印输出aggregationStream.print()//执行操作env.execute(" AggregationTest")}
}

运行结果
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5.数据输出

1.基本数据输出包括:文件输出,客户端输出,socket网络端口输出。
文件输出具体代码

val dataStream = env.fromElements("hadoop","spark","flink")
//文件输出
dataStream.writeAsText("file:///home/hadoop/output.txt")
//hdfs输出//把数据写入HDFS
dataStream.writeAsText("hdfs://localhost:9000/output.txt“) //通过writeToSocket方法将DataStream数据集输出到指定socket端口
dataStream.writeToSocket(outputHost,outputPort,new SimpleStringSchema())

2.输出到kafka
代码举例:

import org.apache.flink.api.common.serialization.SimpleStringSchema
import org.apache.flink.streaming.api.scala._
import org.apache.flink.streaming.api.scala.StreamExecutionEnvironment
import org.apache.flink.streaming.connectors.kafka.FlinkKafkaProducerobject SinkKafkaTest{def main(args: Array[String]): Unit = {//获取执行环境val env = StreamExecutionEnvironment.getExecutionEnvironment//加载或创建数据源val dataStream = env.fromElements("hadoop","spark","flink")//把数据输出到Kafka
dataStream.addSink(new FlinkKafkaProducer [String]("localhost:9092", "sinkKafka", new SimpleStringSchema()))//程序触发执行env.execute()}
}

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